/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.cassandra.cql3.statements; import java.util.*; import org.apache.cassandra.config.CFMetaData; import org.apache.cassandra.config.CFMetaData.SpeculativeRetry; import org.apache.cassandra.db.compaction.AbstractCompactionStrategy; import org.apache.cassandra.exceptions.ConfigurationException; import org.apache.cassandra.exceptions.SyntaxException; import org.apache.cassandra.io.compress.CompressionParameters; public class CFPropDefs extends PropertyDefinitions { public static final String KW_COMMENT = "comment"; public static final String KW_READREPAIRCHANCE = "read_repair_chance"; public static final String KW_DCLOCALREADREPAIRCHANCE = "dclocal_read_repair_chance"; public static final String KW_GCGRACESECONDS = "gc_grace_seconds"; public static final String KW_MINCOMPACTIONTHRESHOLD = "min_threshold"; public static final String KW_MAXCOMPACTIONTHRESHOLD = "max_threshold"; public static final String KW_REPLICATEONWRITE = "replicate_on_write"; public static final String KW_CACHING = "caching"; public static final String KW_DEFAULT_TIME_TO_LIVE = "default_time_to_live"; public static final String KW_INDEX_INTERVAL = "index_interval"; public static final String KW_SPECULATIVE_RETRY = "speculative_retry"; public static final String KW_POPULATE_IO_CACHE_ON_FLUSH = "populate_io_cache_on_flush"; public static final String KW_BF_FP_CHANCE = "bloom_filter_fp_chance"; public static final String KW_MEMTABLE_FLUSH_PERIOD = "memtable_flush_period_in_ms"; public static final String KW_COMPACTION = "compaction"; public static final String KW_COMPRESSION = "compression"; public static final String COMPACTION_STRATEGY_CLASS_KEY = "class"; public static final Set<String> keywords = new HashSet<>(); public static final Set<String> obsoleteKeywords = new HashSet<>(); static { keywords.add(KW_COMMENT); keywords.add(KW_READREPAIRCHANCE); keywords.add(KW_DCLOCALREADREPAIRCHANCE); keywords.add(KW_GCGRACESECONDS); keywords.add(KW_REPLICATEONWRITE); keywords.add(KW_CACHING); keywords.add(KW_DEFAULT_TIME_TO_LIVE); keywords.add(KW_INDEX_INTERVAL); keywords.add(KW_SPECULATIVE_RETRY); keywords.add(KW_POPULATE_IO_CACHE_ON_FLUSH); keywords.add(KW_BF_FP_CHANCE); keywords.add(KW_COMPACTION); keywords.add(KW_COMPRESSION); keywords.add(KW_MEMTABLE_FLUSH_PERIOD); } private Class<? extends AbstractCompactionStrategy> compactionStrategyClass = null; public void validate() throws ConfigurationException, SyntaxException { // Skip validation if the comapction strategy class is already set as it means we've alreayd // prepared (and redoing it would set strategyClass back to null, which we don't want) if (compactionStrategyClass != null) return; validate(keywords, obsoleteKeywords); Map<String, String> compactionOptions = getCompactionOptions(); if (!compactionOptions.isEmpty()) { String strategy = compactionOptions.get(COMPACTION_STRATEGY_CLASS_KEY); if (strategy == null) throw new ConfigurationException("Missing sub-option '" + COMPACTION_STRATEGY_CLASS_KEY + "' for the '" + KW_COMPACTION + "' option."); compactionStrategyClass = CFMetaData.createCompactionStrategy(strategy); compactionOptions.remove(COMPACTION_STRATEGY_CLASS_KEY); CFMetaData.validateCompactionOptions(compactionStrategyClass, compactionOptions); } Map<String, String> compressionOptions = getCompressionOptions(); if (!compressionOptions.isEmpty()) { String sstableCompressionClass = compressionOptions.get(CompressionParameters.SSTABLE_COMPRESSION); if (sstableCompressionClass == null) throw new ConfigurationException("Missing sub-option '" + CompressionParameters.SSTABLE_COMPRESSION + "' for the '" + KW_COMPRESSION + "' option."); Integer chunkLength = CompressionParameters.DEFAULT_CHUNK_LENGTH; if (compressionOptions.containsKey(CompressionParameters.CHUNK_LENGTH_KB)) chunkLength = CompressionParameters.parseChunkLength(compressionOptions.get(CompressionParameters.CHUNK_LENGTH_KB)); Map<String, String> remainingOptions = new HashMap<>(compressionOptions); remainingOptions.remove(CompressionParameters.SSTABLE_COMPRESSION); remainingOptions.remove(CompressionParameters.CHUNK_LENGTH_KB); CompressionParameters cp = new CompressionParameters(sstableCompressionClass, chunkLength, remainingOptions); cp.validate(); } validateMinimumInt(KW_DEFAULT_TIME_TO_LIVE, 0, CFMetaData.DEFAULT_DEFAULT_TIME_TO_LIVE); validateMinimumInt(KW_INDEX_INTERVAL, 1, CFMetaData.DEFAULT_INDEX_INTERVAL); SpeculativeRetry.fromString(getString(KW_SPECULATIVE_RETRY, SpeculativeRetry.RetryType.NONE.name())); } public Class<? extends AbstractCompactionStrategy> getCompactionStrategy() { return compactionStrategyClass; } public Map<String, String> getCompactionOptions() throws SyntaxException { Map<String, String> compactionOptions = getMap(KW_COMPACTION); if (compactionOptions == null) return new HashMap<>(); return compactionOptions; } public Map<String, String> getCompressionOptions() throws SyntaxException { Map<String, String> compressionOptions = getMap(KW_COMPRESSION); if (compressionOptions == null) return new HashMap<>(); return compressionOptions; } public void applyToCFMetadata(CFMetaData cfm) throws ConfigurationException, SyntaxException { if (hasProperty(KW_COMMENT)) cfm.comment(getString(KW_COMMENT, "")); cfm.readRepairChance(getDouble(KW_READREPAIRCHANCE, cfm.getReadRepairChance())); cfm.dcLocalReadRepairChance(getDouble(KW_DCLOCALREADREPAIRCHANCE, cfm.getDcLocalReadRepair())); cfm.gcGraceSeconds(getInt(KW_GCGRACESECONDS, cfm.getGcGraceSeconds())); cfm.replicateOnWrite(getBoolean(KW_REPLICATEONWRITE, cfm.getReplicateOnWrite())); int minCompactionThreshold = toInt(KW_MINCOMPACTIONTHRESHOLD, getCompactionOptions().get(KW_MINCOMPACTIONTHRESHOLD), cfm.getMinCompactionThreshold()); int maxCompactionThreshold = toInt(KW_MAXCOMPACTIONTHRESHOLD, getCompactionOptions().get(KW_MAXCOMPACTIONTHRESHOLD), cfm.getMaxCompactionThreshold()); if (minCompactionThreshold <= 0 || maxCompactionThreshold <= 0) throw new ConfigurationException("Disabling compaction by setting compaction thresholds to 0 has been deprecated, set the compaction option 'enabled' to false instead."); cfm.minCompactionThreshold(minCompactionThreshold); cfm.maxCompactionThreshold(maxCompactionThreshold); cfm.caching(CFMetaData.Caching.fromString(getString(KW_CACHING, cfm.getCaching().toString()))); cfm.defaultTimeToLive(getInt(KW_DEFAULT_TIME_TO_LIVE, cfm.getDefaultTimeToLive())); cfm.speculativeRetry(CFMetaData.SpeculativeRetry.fromString(getString(KW_SPECULATIVE_RETRY, cfm.getSpeculativeRetry().toString()))); cfm.memtableFlushPeriod(getInt(KW_MEMTABLE_FLUSH_PERIOD, cfm.getMemtableFlushPeriod())); cfm.populateIoCacheOnFlush(getBoolean(KW_POPULATE_IO_CACHE_ON_FLUSH, cfm.populateIoCacheOnFlush())); cfm.indexInterval(getInt(KW_INDEX_INTERVAL, cfm.getIndexInterval())); if (compactionStrategyClass != null) { cfm.compactionStrategyClass(compactionStrategyClass); cfm.compactionStrategyOptions(new HashMap<>(getCompactionOptions())); } cfm.bloomFilterFpChance(getDouble(KW_BF_FP_CHANCE, cfm.getBloomFilterFpChance())); if (!getCompressionOptions().isEmpty()) cfm.compressionParameters(CompressionParameters.create(getCompressionOptions())); } @Override public String toString() { return String.format("CFPropDefs(%s)", properties.toString()); } private void validateMinimumInt(String field, int minimumValue, int defaultValue) throws SyntaxException, ConfigurationException { Integer val = getInt(field, null); if (val != null && val < minimumValue) throw new ConfigurationException(String.format("%s cannot be smaller than %s, (default %s)", field, minimumValue, defaultValue)); } }